J. C. du Preez scite author profile

Alcohol dehydrogenases (ADHs) constitute a large family of enzymes responsible for the reversible oxidation of alcohols to aldehydes with the concomitant reduction of NAD(+) or NADP(+). These enzymes have been identified not only in yeasts, but also in several other eukaryotes and even prokaryotes. The ADHs of Saccharomyces cerevisiae have been studied intensively for over half a century. With the ever-evolving techniques available for scientific analysis and since the completion of the Yeast Genome Project, a vast amount of new information has been generated during the past 10 years. This review attempts to provide a brief summary of the wealth of knowledge gained from earlier studies as well as more recent work. Relevant aspects regarding the primary and secondary structure, kinetic characteristics, function and molecular regulation of the ADHs in S. cerevisiae are discussed in detail. A brief outlook also contemplates possible future research opportunities.

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Process parameters and environmental factors affecting d-xylose fermentation by yeasts

Preez

1994

Enzyme and Microbial Technology

166

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The fermentation of hexose and pentose sugars by Candida shehatae and Pichia stipitis

Preez

Bosch

Prior

1986

Appl Microbiol Biotechnol

173

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Molecular and physiological aspects of alcohol dehydrogenases in the ethanol metabolism of Saccharomyces cerevisiae

2011

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The physiological role and possible functional substitution of each of the five alcohol dehydrogenase (Adh) isozymes in Saccharomyces cerevisiae were investigated in five quadruple deletion mutants designated strains Q1-Q5, with the number indicating the sole intact ADH gene. Their growth in aerobic batch cultures was characterised in terms of kinetic and stoichiometric parameters. Cultivation with glucose or ethanol as carbon substrate revealed that Adh1 was the only alcohol dehydrogenase capable of efficiently catalysing the reduction of acetaldehyde to ethanol. The oxidation of produced or added ethanol could also be attributed to Adh1. Growth of strains lacking the ADH1 gene resulted in the production of glycerol as a major fermentation product, concomitant with the production of a significant amount of acetaldehyde. Strains Q2 and Q3, expressing only ADH2 or ADH3, respectively, produced ethanol from glucose, albeit less than strain Q1, and were also able to oxidise added ethanol. Strains Q4 and Q5 grew poorly on glucose and produced ethanol, but were neither able to utilise the produced ethanol nor grow on added ethanol. Transcription profiles of the ADH4 and ADH5 genes suggested that participation of these gene products in ethanol production from glucose was unlikely.

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The oxygen requirements of yeasts for the fermentation of d-xylose and d-glucose to ethanol

Ligthelm

Prior

Preez

1988

Appl Microbiol Biotechnol

128

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J. C. du Preez

The alcohol dehydrogenases ofSaccharomyces cerevisiae: a comprehensive review

Process parameters and environmental factors affecting d-xylose fermentation by yeasts

The fermentation of hexose and pentose sugars by Candida shehatae and Pichia stipitis

Molecular and physiological aspects of alcohol dehydrogenases in the ethanol metabolism of Saccharomyces cerevisiae

The oxygen requirements of yeasts for the fermentation of d-xylose and d-glucose to ethanol

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